/***********************************************************************
 threaded-server.cpp - Implements a simple Winsock server that accepts
    connections and spins each one off into its own thread, where it's
    treated as a blocking socket.

    Each connection thread reads data off the socket and echoes it
    back verbatim.

 Compiling:
    VC++: cl -GX threaded-server.cpp main.cpp ws-util.cpp wsock32.lib
    BC++: bcc32 threaded-server.cpp main.cpp ws-util.cpp
    
 This program is hereby released into the public domain.  There is
 ABSOLUTELY NO WARRANTY WHATSOEVER for this product.  Caveat hacker.
***********************************************************************/

#include "ws-util.h"

#include <winsock.h>

#include <iostream>

using namespace std;


//// Constants /////////////////////////////////////////////////////////

const int kBufferSize = 4096;
        

//// Prototypes ////////////////////////////////////////////////////////

SOCKET SetUpListener(const char* pcAddress, int nPort);
void AcceptConnections(SOCKET ListeningSocket);
bool EchoIncomingPackets(SOCKET sd);


//// DoWinsock /////////////////////////////////////////////////////////
// The module's driver function -- we just call other functions and
// interpret their results.

int DoWinsock(const char* pcAddress, int nPort)
{
    cout << "Establishing the listener..." << endl;
    SOCKET ListeningSocket = SetUpListener(pcAddress, htons(nPort));
    if (ListeningSocket == INVALID_SOCKET) 
	{
        cout << endl << WSAGetLastErrorMessage("establish listener") << 
                endl;
        return 3;
    }

    cout << "Waiting for connections..." << flush;
    while (1) 
	{
        AcceptConnections(ListeningSocket);
        cout << "Acceptor restarting..." << endl;
    }

#if defined(_MSC_VER)
    return 0;   // warning eater
#endif
}


//// SetUpListener /////////////////////////////////////////////////////
// Sets up a listener on the given interface and port, returning the
// listening socket if successful; if not, returns INVALID_SOCKET.

SOCKET SetUpListener(const char* pcAddress, int nPort)
{
    u_long nInterfaceAddr = inet_addr(pcAddress);
    if (nInterfaceAddr != INADDR_NONE) 
	{
        SOCKET sd = socket(AF_INET, SOCK_STREAM, 0);
        if (sd != INVALID_SOCKET) 
		{
            sockaddr_in sinInterface;
            sinInterface.sin_family = AF_INET;
            sinInterface.sin_addr.s_addr = nInterfaceAddr;
            sinInterface.sin_port = nPort;
            if (bind(sd, (sockaddr*)&sinInterface, sizeof(sockaddr_in)) != SOCKET_ERROR) 
			{
                listen(sd, SOMAXCONN);
                return sd;
            }
            else 
			{
                cerr << WSAGetLastErrorMessage("bind() failed") <<
                        endl;
            }
        }
    }

    return INVALID_SOCKET;
}


//// EchoHandler ///////////////////////////////////////////////////////
// Handles the incoming data by reflecting it back to the sender.

DWORD WINAPI EchoHandler(void* sd_) 
{
    int nRetval = 0;
    SOCKET sd = (SOCKET)sd_;

    if (!EchoIncomingPackets(sd)) {
        cerr << endl << WSAGetLastErrorMessage(
                "Echo incoming packets failed") << endl;
        nRetval = 3;
    }

    cout << "Shutting connection down..." << flush;
    if (ShutdownConnection(sd)) {
        cout << "Connection is down." << endl;
    }
    else {
        cerr << endl << WSAGetLastErrorMessage(
                "Connection shutdown failed") << endl;
        nRetval = 3;
    }

    return nRetval;
}


//// AcceptConnections /////////////////////////////////////////////////
// Spins forever waiting for connections.  For each one that comes in, 
// we create a thread to handle it and go back to waiting for
// connections.  If an error occurs, we return.

void AcceptConnections(SOCKET ListeningSocket)
{
    sockaddr_in sinRemote;
    int nAddrSize = sizeof(sinRemote);

    while (1) 
	{
        SOCKET sd = accept(ListeningSocket, (sockaddr*)&sinRemote,&nAddrSize);
        if (sd != INVALID_SOCKET) 
		{
            cout << "Accepted connection from " <<
                    inet_ntoa(sinRemote.sin_addr) << ":" <<
                    ntohs(sinRemote.sin_port) << "." <<
                    endl;

            DWORD nThreadID;
            CreateThread(0, 0, EchoHandler, (void*)sd, 0, &nThreadID);
        }
        else 
		{
            cerr << WSAGetLastErrorMessage("accept() failed") << 
                    endl;
            return;
        }
    }
}


//// EchoIncomingPackets ///////////////////////////////////////////////
// Bounces any incoming packets back to the client.  We return false
// on errors, or true if the client closed the socket normally.

bool EchoIncomingPackets(SOCKET sd)
{
    // Read data from client
	FILE* outFile;

    char acReadBuffer[kBufferSize];
    int nReadBytes;
    do 
	{
        nReadBytes = recv(sd, acReadBuffer, kBufferSize, 0);
        if (nReadBytes > 0) 
		{
            cout << "Received " << nReadBytes << 
                    " bytes from client." << endl;
        
            int nSentBytes = 0;
            while (nSentBytes < nReadBytes) 
			{
                int nTemp = send(sd, acReadBuffer + nSentBytes, nReadBytes - nSentBytes, 0);
                if (nTemp > 0) 
				{
                    cout << "Sent " << nTemp << " bytes back to client." << endl;
                    nSentBytes += nTemp;
                }
                else if (nTemp == SOCKET_ERROR) 
				{
                    return false;
                }
                else 
				{
                    // Client closed connection before we could reply to
                    // all the data it sent, so bomb out early.
                    cout << "Peer unexpectedly dropped connection!" << 
                            endl;
                    return true;
                }
            }
        }
        else if (nReadBytes == SOCKET_ERROR) 
		{
            return false;
        }
    } while (nReadBytes != 0);

	outFile = fopen("out.txt","at");
	fprintf(outFile,"%s\n\n",acReadBuffer);
	fclose(outFile);

    cout << "Connection closed by peer." << endl;
    return true;
}


